Asymmetric alignment system for a variable stator vane

What is claimed is: 1. A variable stator vane comprising: an airfoil comprising a first end, a second end, and a longitudinal axis extending between said first end and said second end; a first trunnion disposed along said longitudinal axis at said first end, said first trunnion comprising a trunnion seat extending from a distal end of said first trunnion opposite said airfoil, said trunnion seat comprising first and second parallel seating flats opposing each other about said longitudinal axis; a threaded stem extending from said trunnion seat and coaxial with said first trunnion about said longitudinal axis, said threaded stem comprising a flat first alignment surface coextensive with said first parallel seating flat in the longitudinal direction, and an arcuate second alignment surface aligning with said second parallel seating flat in the longitudinal direction; and a lever arm comprising a mounting hole at a proximal end thereof, said mounting hole configured for complementary engagement with said trunnion seat, wherein the mounting hole defines a D-shape slot comprising a concave scallop portion positioned corresponding to the flat portion at the threaded stem, and wherein said concave scallop portion is configured to conform to an external dimension of said arcuate portion of said threaded stem, and wherein the D-shape slot comprises an arcuate side corresponding to the arcuate portion of the threaded stem, wherein the threaded stem comprises a flat portion coextensive with said second parallel seating flat and an arcuate portion disposed at a distal end of said threaded stem opposite said trunnion seat, and wherein the arcuate portion at the distal end of the threaded stem is radially outward to the flat portion radially inward of the arcuate portion. 2. The variable stator vane as claimed in claim 1 , further comprising a second trunnion disposed along said longitudinal axis at said second end. 3. The variable stator vane as claimed in claim 2 , wherein said first trunnion is configured to couple to an inner stator casing of a compressor and said second trunnion is configured to couple with an outer stator casing of the compressor. 4. The variable stator vane as claimed in claim 3 , wherein said first and second trunnions are configured to pivotally mount said airfoil to the stator casing. 5. The variable stator vane as claimed in claim 1 , wherein screw threads on said threaded stem are continuous at said arcuate portion and are interrupted at said flat portion and extend only partially therein. 6. The variable stator vane as claimed in claim 5 , wherein said arcuate portion comprises a longitudinal span of at least three contiguous threads of said threaded stem. 7. The variable stator vane as claimed in claim 1 , said trunnion seat further comprising a D-shape mounting block, said D-shape mounting block comprising a flat wall and an arcuate wall opposing each other about said longitudinal axis and connecting said first parallel seating flat with said second parallel seating flat. 8. The variable stator vane as claimed in claim 1 , wherein said first trunnion has an outer diameter across said longitudinal axis, said threaded stem has an outer diameter across said longitudinal axis, and said first trunnion outer diameter is greater than said threaded stem outer diameter. 9. The variable stator vane of claim 1 , wherein the threaded stem defines a width between the flat first alignment surface and an outermost circumferential perimeter of the arcuate portion, and wherein the width thereof is greater than a width between the flat first alignment surface and the flat portion. 10. A variable stator vane assembly comprising: an airfoil comprising a first end, a second end, and a longitudinal axis extending between said first end and said second end; a first trunnion disposed along said longitudinal axis at said airfoil first end, said first trunnion comprising a trunnion seat extending integrally from a distal end of said trunnion opposite said airfoil, said trunnion seat comprising first and second parallel seating flats opposing each other about said longitudinal axis; a threaded stem extending integrally from said trunnion seat and coaxial with said trunnion about said longitudinal axis, said threaded stem comprising a flat first alignment surface coextensive with said first parallel seating flat in the longitudinal direction, and an arcuate second alignment surface aligning with said second parallel seating flat in the longitudinal direction, wherein the threaded stem comprises a flat portion coextensive with said second parallel seating flat and an arcuate portion disposed at a distal end of said threaded stem opposite said trunnion seat, and wherein the arcuate portion at the distal end of the threaded stem is radially outward to the flat portion radially inward of the arcuate portion; a lever arm comprising a mounting hole at a proximal end thereof, said mounting hole configured for complementary engagement with said trunnion seat, wherein the mounting hole defines a D-shape slot comprising a concave scallop portion positioned corresponding to the flat portion at the threaded stem, and wherein said concave scallop portion is configured to conform to an external dimension of said arcuate portion of said threaded stem, and wherein the D-shape slot comprises an arcuate side corresponding to the arcuate portion of the threaded stem; and a retention nut configured to secure said lever arm about said trunnion seat when engaged with said threaded stem. 11. The variable stator vane as claimed in claim 10 , wherein screw threads on said threaded stem are continuous at said arcuate portion and are interrupted at said flat portion and extend only partially therein. 12. The variable stator vane assembly as claimed in claim 11 , said trunnion seat further comprising a D-shape mounting block, said D-shape mounting block comprising a flat side and an arcuate wall opposing each other about said longitudinal axis and connecting said first parallel seating flat with said second parallel seating flat. 13. The variable stator vane assembly as claimed in claim 12 , wherein the D-shape slot comprises first and second opposing parallel flat sides, and a third flat side opposing an arcuate side, said third flat side and said opposing arcuate side connecting said first parallel flat side with said second parallel flat side. 14. The variable stator vane assembly as claimed in claim 13 , wherein said second opposing parallel flat side is configured to permit passage through said mounting hole of said flat first alignment surface of said threaded stem, and inhibit passage through said mounting hole of said arcuate second alignment surface of said threaded stem. 15. The variable stator vane assembly as claimed in claim 14 , wherein said first opposing parallel flat side is configured to permit passage through said mounting hole of said arcuate second alignment surface of said threaded stem. 16. The variable stator vane assembly of claim 13 , wherein the concave scallop portion is defined at one or more of the first and second opposing parallel flat sides. 17. The variable stator vane assembly according to claim 10 , further comprising a washer disposed about said threaded stem between said lever arm and said retention nut. 18. A compressor for a gas turbine engine comprising: an inner casing; an outer casing surrounding said inner casing, said outer casing comprising an annular actuation ring at least one bushing extending through a thickness of said outer casing; and a variable